| 1. | Cortical cells begin to divide .
皮层细胞开始分裂。 |
| 2. | The infection-thread enters and branches in cells of the root cortex .
侵染线进入根的皮层细胞并进行分枝。 |
| 3. | The study on the differential display of gene in rat ' s
大鼠脑皮层细胞低氧反应候选基因的研究 |
| 4. | Green fluorescence can be visualized in leaf epidermal cells and root epidermal cell in few of transgenic toreniafournieri
只有极少数的转基因植株在表皮细胞和根皮层细胞中有目的基因的表达。 |
| 5. | This result is well consistent with that found in senescent macaque monkeys , indicating a universal neural change with age
这与在老年猴发现的结果一致,表明随年龄增加视皮层细胞出现功能衰退可能是一种普遍的现象。 |
| 6. | Exodermis an outermost layer of thickened or suberized cortical cells that sometimes replaces the epidermal layer in the older parts of roots if the epidermal cells have died
外皮层:薄的或木栓化的皮层细胞的最外层。如果根的较老部分表皮细胞死亡,它通常取而代之。 |
| 7. | Cortactin , a novel member of filament actin binding protein family and the main substrate of non - receptor src protein kinase , plays an important role in the dynamic organization of cell cortex cytoskeleton
皮层蛋白( cortactin )是一种微丝肌动蛋白结合蛋白,它与肌动蛋白纤丝的侧面相结合,并直接参与皮层细胞骨架的组建。 |
| 8. | The result above indicates that orientation discrimination practising can leads to specific shift of orientation sensitivity for at least part of the dlgn neurons , which may contribute to the neural plasticity of orientation coding in visual cortex
以上结果提示,方位识别训练可特异性改变外膝体部分神经元(特定离心度上)的方位敏感性,这种敏感性改变可能对视皮层细胞的方位编码可塑性有贡献。 |
| 9. | The stems and rhizomes were observed to differ in cortex - cell layer , perivascular fiber - ring presence , vascular cylinder and pith proportions , vascular bundle number and secondary growth and these differences were associated with their own physiological functions
地上茎和根状茎之间在皮层细胞层数、周维纤维柱的有无、维管柱和髓所占比例、维管束束数、次生生长等方面存在差异,这些差异与它们各自担负的生理功能相关联。 |
| 10. | Fungi form mycorrhizae in plant roots and the hyphae take in carbon from plants through their epidermal cells and move mineral nutrients and water from soil to their epidermal cells ; this symbiosis is of high importance in studying biodiversity conservation , the origins and evolution of terrestrial plant , the rehabilitation and reconstruction of degenerated ecosystems , agriculture , horticulture and forestry
真菌在植物根系形成菌根后,菌丝通过根的皮层细胞获取植物提供的碳源,同时将矿物营养和水从土壤转运到皮层细胞,这种共生过程的研究在生物多样性的保护、陆生植物的起源与演化、退化生态系统的修复与重建以及农业、林业和园艺业的应用具有重要的意义。 |
